15 y new diabetic implant concept
TRANSCRIPT
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Teenagers diagnosed with diabetic mellitus type one; use insulin injection to keep glucose levels within their target range.
Adult patient’s diagnosed as having type two diabetes, regularly need to take costly medication, to stabilize their glucose metabolism levels.
These implant concept’s are alternative’s.By
Doc. GMedsys Research Consultant.Innovative medical research into Bioengineering; blood sugar levels Mgmt.. Implantation devices.
20/12/2014
Diabetics Implant Concept’s
HealthEvolution
The pancreas is made up of three main anatomical parts, the head, the body
The pancreas is an accessory organ of the digestive system that is principally involved in the production of important hormones such as glucagon, insulin and somatostatin. It is both an accessory digestive organ and an endocrine gland. Clusters of cells called Islets of Langerhans are distributed throughout the pancreas. These secrete the hormones and enzymes that will be released into the small intestine to digest lipids, carbohydrates and proteins.
The Pancreas
Duct of Wirsung, collects the pancreatic enzymes and juices from the pancreas and drains them into the common bile duct from the gallbladder to empty digestive juices and bile into the duodenum at the major duodenal papilla. This duct is sometimes joined by an accessory pancreatic duct known as the duct of Santorini.
Non-invasive method of implantationTiny diabetic implant inside body of pancreas
• The patient would place the Tiny-device (which is the size of an aspirin tablet) into their mouths, and then given a glass of liquid to assess them in swallow the device.
• As the device entries, the mouth a pinhead-sized tracker system is activated by warm body blood, which provides its energy source.
• This tracker emits a signal allowing it to be track as it passes through the nasal cavity to the esophagus and larynx and then into the pancreas. Medical professional responsible for the procedure will monitor its progress on a PC or laptop until it enters the body of the pancreas.
• Once situated within the body of the pancreas, the software management system within the device is activated remotely by laptop. It trigs the release of three arms. Made from a single thickness of Bovine Pericardia tissue, which anchor tiny device to the inside the pancreas?
• Now the device is situated within the body of the pancreas, the tiny-device sensor is activates to monitor the patients blood sugar levels. Should the monitor detect any deviation of the normal blood glucose levels, the tiny-device electrical current activity range of raped electrical pulse; these pulses are designed to stimulating the pancreas to produce glucose?
• To achieve this a tiny devices sensors will check’s blood glucose levels throughout the course of the day, are within the general target range set by American Diabetes Association, which are 70-130 mg/dl. The devices sensors check’s, 2 hours after meals that blood glucose is less than 180 mg/dl.
Accessory digestive organs
Pancreas
Tiny Tracking systemTiny implant
Device emits a signal allowing it to be track by Pc/Laptop passing through: nasal cavity, esophagus, larynx into the pancreas.
Device the size of an aspirin tablet, is given to the patient to place into the mouth and swallowed.
A pinhead-size tracker inserted into the device, warmed by blood & needs no power source.
When anchor the device's sensor are activated to monitor the patient blood sugar levels.
Once inside the body of the pancreas, software activates, three arms, which anchor tiny device inside the body of the pancreas.
Devices anchor arms extended
Non-invasive method of implantation
Downloads patient’s historic blood levels records to GP surgery for analysis.
Duel Wireless SIM card with duel processing System
‘On Call” Pancreas device monitoring Unit.
5G
Smart SIM
Modified Smartphone
General practitioner surgery
Blood Levels Patient implant tracking system
Wireless technology from device to unit, & Unit to device.
Tiny diabetic implant inside body of pancreas
Far Field
Applications communicate with Pancreas-monitoring unit in real-timeIn event of emergency, triggers an alarm in ‘On-Call” unit.Energy cells heath status. Recharged wirelessly as required.
Near field
Downloads patient’s historic medical records to ‘On-Call” unit for analysis.
Reset blood glucose levels preferences on tiny diabetes implant device with unique password code.Monitor in real-time: Energy cells status Blood glucose levels stability Check Sensor & Stimulator
function correctly Chuck battery in mortified
Smartphone.
‘On-Call” Monitoring Service’s
Parts:• Outer cover with inserted tracking system• Gasket seal• Cell energy renewable system• Small UPC & Software mgmt. system• Software system managing blood sugar
levels• Historical data storage system• Inner power source provides energy to all
parts• The pancreas devices body• Anchoring systems• Wireless communication systems
Energy Cell
Tracking SystemAnchors Arm’s extended
Tiny diabetes implantAnchors Arm’s
foldedAnchors Arm’s
extended
Small CPU Data shortage system
Wireless Communication
Sys.
Blood sugar levels implant mgmt. system component’s…
Tracking System
Energy Cell
Small CPUData shortage system
Anchors Arm’s
Wireless Communication Sys.
Outer body cover
Gasket seal
Power energy source
Type 1 diabetes sensor
Type 2 diabetes sensor
diabetes sensors
Type 1: If the blood levels are outside the normal range, the device discharges a range of raped electrical pulse; these pulses stimulate the pancreas to produce glucose (insulin).
Type 2: If the sensor detects blood levels are outside the normal range, the device discharges a signal to the stimulator, which triggers rhythmically vibration’s; to stimulate the pancreas beta cell to absorb the glucoses.
The objective; is to design a Tiny implant device, (aspirin size) which can stabilize blood glucose levels of patients diagnosed with diabetes mellitus.
To achieve this a tiny devices sensors will check’s blood glucose levels throughout the course of the day, are within the general target range set by American Diabetes Association, which are 70-130 mg/dl. The devices sensors check’s, 2 hours after meals that blood glucose is less than 180 mg/dl.
This tiny implant on receiving the signal, this fires an electrical pulse at the tiny sensor, altering activity in the cells within the pancreas. Different frequent ranges will stimulate the pancreas beta cells for Type 1 or Type2 diabetes
Note: Critical MassTo keep costs low it’s more efficient to manufacture this device with two sensors and only activate the one applicable to the type of diabetes the patient has.
Sensor: Monitors blood glucose levels.
Stimulator: Rhythmically vibrate activate beta cells to absorb glucoses.
Blood glucose levels stabilizing functionality
Sensor
Tiny diabetics implant
Diabetes type 1
Stimulato
r
Pancreas
Diabetes type 2
THE BIBLIOGRAPHY
Source materials for this study: First reference. Stanford University: An mm-Sized wirelessly power & remotely controlled locomotive implant paper written by Ada Poon. Pro. Stanford University, Electrical Engineering dept. John Hoc micro-implant consisting of coil power harvesting integrated circuit that can be implanted any were in the body.National Diabetes Statistics report about diabetes, (released June 10, 2014)Statistics About Diabetes: Data from the National Diabetes Report, 2014 (released June 10, 2014) Statistics from: US. Centers for Disease Control, The World Health organizations, report on the rise of diabetes worldwide. (2014) Researchers at UT Southwestern Medical Center have identified neural pathways that increase understanding of how the brain regulates body. (Released July 2014) Information provider by American Diabetes Association on how a insulin pumps works? Researchers at Yale School of Medicine have pinpointed a mechanism in part of the brain that is key to sensing glucose levels in the blood, linking it to both type 1 and type 2 Diabetes. The findings are published in the July 28 issue of Proceedings of the National Academies of Sciences. Author: Sabrina Diano, professor in the departments of Obstetrics, Gynecology & Reproductive Sciences, Comparative Medicine, and Neurobiology at Yale. Other authors on the study include Jung Dae Kim, Chitoku Toda, Giuseppe, D’Agostino, Caroline J. Zeiss, Ralph J. DiLeone, John D. Ellsworth, Richard G. Kibbey*, Owen Chan, Brandon K. Harvey, Christopher T. Richie, Mari Savolainen, Timo Myöhännen, and Jin Kwon Jeong. WebMD: provides credible information and in-depth reference material about diabetes in the UK. They are a source of original and timely health information; they also feature material from well-known content providers like the British Medical Journal and NHS Choices. Statistical Information: UK Health and Social Care Information Center and The National Diabetes Audit. www.diabetes.org.uk Statistical on people that die from diabetes in England New findings, made by Harvard Professor Doug Melton and a team of scientists from Beth Israel Deaconess Medical Center in Boston and Salk Institute in California. Figures from the latest report from the Health and Social Care Information (2014
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